Design, Forming, and Application Technologies of Lightweight and High-Strength Components for Aerospace (Submission Deadline: June 21, 2026)
航空航天轻质高强构件设计、成型及应用技术
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Co-chairs: |
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| Bing Wang |
Youliang Yang |
Dongyue Gao |
Chenglong Guan |
| Fuzhou University, China |
Central South University, China |
Jiangnan University, China |
Fuzhou University, China |
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| Keywords: |
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- Structural Mechanics (结构力学)
- Plastic Forming (塑性成形)
- Composites Curing (复合材料成型)
- Geometry-Performance Synergy (形性协同)
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| Topics: |
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- Mechanical analysis, design, and performance evaluation of lightweight and high-strength components (轻质高强构件力学分析、设计和性能评价)
- Integrated structural–functional design of aerospace equipment (航空航天装备结构-功能一体化设计)
- Advanced plastic forming and composite curing technologies for aerospace equipment (航空航天装备先进塑性成形与复合材料成型技术)
- Geometry–performance regulation of complex components under multi-field coupling (复合能场作用下的复杂构件形性调控技术)
- Structural health monitoring of aerospace composite components (航空航天复合材料构件健康监测)
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| Summary: |
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- This session focuses on the key challenges in mechanical design and advanced manufacturing of lightweight and high-strength aerospace components under complex service environments. It emphasizes structural mechanics analysis methods, integrated structural–functional design strategies, and advanced plastic forming and composite manufacturing technologies. The objective is to elucidate the evolution mechanisms of shape and properties under multi-physics field coupling, and to propose new design and manufacturing paradigms that simultaneously achieve lightweighting, high performance, and high reliability, thereby providing theoretical and technological support for the high-quality development of aerospace equipment.
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- 本专题聚焦航空航天轻质高强构件在复杂服役环境下面临的力学设计与先进成型制造关键难题,重点探讨结构力学分析方法、结构-功能一体化设计策略,以及先进塑性成形与复合材料成型技术。旨在揭示多物理场耦合作用下构件的形性演化规律,提出兼顾轻量化、高性能与高可靠性的设计与制造新思路,为航空航天装备的高质量发展提供理论与技术支撑
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